It is the jackie jackie mo mo, jackie jackie mo mo is the founder of the mo element or more know as the moster!
Mo, which stands for molybdenum, is an element. It is a transition metal with the atomic number 42 on the periodic table. Molybdenum is known for its high melting point and is used in various industrial applications, including steel production and electrical contacts.
If it is an element, it could be either chromium (Cr) or molybdenum (Mo). You need to know more to know which. The electronic configuration for Cr is:[Ar]3d54s1and for Mo it is[Kr]4d55s1So both elements have 5 d-electrons and 1 s-electron. I'm not sure if that what you mean however by "s1d5"...
Molybdenum-96 (not Mo-96) or Mo 96 42 has 42 protons and 54 neutrons. The atomic number is number of protons The mass number minus the atomic number is number of neutrons
Stop being lazy it would take 2 seconds to look at the periodic table and find out.
All elements have neutrons and protons within the nucleus.
Molybenum is an chemical element, symbol Mo
The two chief words that Mo abbreviates are:- The state of Missouri- The element molybdenum (element number 42)
bolok mo
Molybdenum (Mo)Check a periodic table, you can find it easily :)
Molybdenum is the 42nd element on the periodic table.
No, "Molybdemum" is not an element. The correct spelling is "Molybdenum," and it is indeed a chemical element with the symbol Mo and atomic number 42. It is a transition metal commonly used in various industrial applications.
Kwento mo sa PAGONG
Mo, which stands for molybdenum, is an element. It is a transition metal with the atomic number 42 on the periodic table. Molybdenum is known for its high melting point and is used in various industrial applications, including steel production and electrical contacts.
No. No element on its own is organic. A substance is only organic when it is a compound that contains carbon.
If it is an element, it could be either chromium (Cr) or molybdenum (Mo). You need to know more to know which. The electronic configuration for Cr is:[Ar]3d54s1and for Mo it is[Kr]4d55s1So both elements have 5 d-electrons and 1 s-electron. I'm not sure if that what you mean however by "s1d5"...
The oxidation number for the compound MO can vary depending on M. In general, oxygen has an oxidation number of -2. Therefore, you would need to know what element M represents in order to determine the oxidation number for MO.
A periodic table should be useful here, there even is a link provided for you below. One glance at the forty second element on the table should give you your answer. the element is molybdenum.